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9. Extra virgin olive oil improved body weight and insulin sensitivity in high fat diet-induced obese LDLr−/−.Leiden mice without attenuation of steatohepatitis

Author

Manuel Romero-Gómez, Lourdes M. Varela, Anabel Rojas, Amparo Luque Sierra, Alejandro Martin-Montalvo, Javier López-Beas, Abdelkrim Hmadcha, Eloísa Andújar, Leticia Álvarez-Amor, Franz Martín, Genoveva Berná, Mónica Pérez-Alegre, Antonio Cárdenas, Robert Kleemann, Rocío Gallego-Durán, Lucía López-Bermudo, Mª José Robles-Frías, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Junta de Andalucía, Instituto de Salud Carlos III, European Commission, [Álvarez-Amor,L, Sierra,AL, Cárdenas,A, López-Bermudo,L, López-Beas,J, Andújar,E, Pérez-Alegre,M, Varela,LM, Martin-Montalvo,A, Berná,G, Rojas,A, Martín,F] Andalusian Center of Molecular Biology and Regenerative Medicine CABIMER, University Pablo Olavide-University of Seville-CSIC, Seville, Spain. [Álvarez-Amor,L, Hmadcha,A, Martín,F] Biomedical Research Network On Diabetes and Related Metabolic Diseases CIBERDEM, Instituto de Salud Carlos III, Madrid, Spain. [Gallego-Durán,R, Romero-Gómez,M] Hospital Universitario Virgen del Rocío de Sevilla, Instituto de Biomedicina de Sevilla, Universidad de Sevilla, Sevilla, Spain. [Gallego-Durán,R, Romero-Gómez,M] Biomedical Research Network On Hepatic and Digestive Diseases CIBEREHD, Instituto de Salud Carlos III, Madrid, Spain. [Robles-Frías,MJ] Compared Pathology Unit, Hospital Universitario Virgen del Rocío Intituto de Biomedicina de Sevilla Biobank Node, Andalucia Health Public System Biobank, Sevilla, Spain. [Kleemann,R] Department of Metabolic Health Research, Netherlands Organisation for Applied Scientifc Research-TNO, Leiden, The Netherlands. [Kleemann,R] Department of Vascular Surgery, Leiden University Medical Centre, Leiden, The Netherlands., and This work was supported by the grants AGL2014-54585-R, AGL-2017-86927-R, CP14/ 00105, PI18/01590 (Ministerio de Economía y Competitividad), PAI-BIO311 (Junta de Andalucía), CB07/08/0006 (Instituto de Salud Carlos III) and by the TNO research programs 'Body Brain Interactions ERP 020' and 'Functional Biomarkers PMC13'.

Subjects
0301 basic medicine, Anatomy::Digestive System::Liver [Medical Subject Headings], Mice, Obese, Diet, Mediterranean, Mice, chemistry.chemical_compound, 0302 clinical medicine, Phenomena and Processes::Metabolic Phenomena::Metabolism::Lipid Metabolism [Medical Subject Headings], Non-alcoholic Fatty Liver Disease, Extra virgin olive oil, Organisms::Eukaryota::Animals [Medical Subject Headings], Glucose homeostasis, Non-alcoholic steatohepatitis, Mice, Knockout, Multidisciplinary, medicine.diagnostic_test, Chemistry, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Therapeutics::Nutrition Therapy::Diet Therapy::Diet, Mediterranean [Medical Subject Headings], Fatty liver, Lipoproteínas LDL, food and beverages, Type 2 diabetes, Insulin sensitivity, Aceite de oliva, Liver, Chemicals and Drugs::Amino Acids, Peptides, and Proteins::Proteins::Membrane Proteins::Receptors, Cell Surface::Receptors, Lipoprotein::Receptors, LDL [Medical Subject Headings], Medicine, Female, 030211 gastroenterology & hepatology, lipids (amino acids, peptides, and proteins), medicine.symptom, medicine.medical_specialty, Science, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Rodentia::Muridae::Murinae::Mice::Mice, Mutant Strains::Mice, Obese [Medical Subject Headings], steatohepatitis, Diet, High-Fat, Resistencia a la insulina, Article, Transaminase, LDL, 03 medical and health sciences, Insulin resistance, Phenomena and Processes::Physiological Phenomena::Nutritional Physiological Phenomena::Diet::Diet, High-Fat [Medical Subject Headings], Diseases::Nutritional and Metabolic Diseases::Metabolic Diseases::Glucose Metabolism Disorders::Hyperinsulinism::Insulin Resistance [Medical Subject Headings], Internal medicine, medicine, Animals, Obesity, Olive Oil, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Rodentia::Muridae::Murinae::Mice [Medical Subject Headings], Fatty acid metabolism, Body Weight, Diet, high-fat, Hígado graso, nutritional and metabolic diseases, Peso corporal, Body weight, Lipid Metabolism, medicine.disease, Diseases::Nutritional and Metabolic Diseases::Nutrition Disorders::Overnutrition::Obesity [Medical Subject Headings], 030104 developmental biology, Endocrinology, Dieta alta en grasa, Receptors, LDL, Check Tags::Female [Medical Subject Headings], Diseases::Pathological Conditions, Signs and Symptoms::Signs and Symptoms::Body Weight [Medical Subject Headings], Insulin Resistance, Steatohepatitis, Lipid profile, Weight gain, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Rodentia::Muridae::Murinae::Mice::Mice, Mutant Strains::Mice, Knockout [Medical Subject Headings]
Abstract

Dietary fatty acids play a role in the pathogenesis of obesity-associated non-alcoholic fatty liver disease (NAFLD), which is associated with insulin resistance (IR). Fatty acid composition is critical for IR and subsequent NAFLD development. Extra-virgin olive oil (EVOO) is the main source of monounsaturated fatty acids (MUFA) in Mediterranean diets. This study examined whether EVOO-containing high fat diets may prevent diet-induced NAFLD using Ldlr−/−. Leiden mice. In female Ldlr−/−.Leiden mice, the effects of the following high fat diets (HFDs) were examined: a lard-based HFD (HFD-L); an EVOO-based HFD (HFD-EVOO); a phenolic compounds-rich EVOO HFD (HFD-OL). We studied changes in body weight (BW), lipid profile, transaminases, glucose homeostasis, liver pathology and transcriptome. Both EVOO diets reduced body weight (BW) and improved insulin sensitivity. The EVOOs did not improve transaminase values and increased LDL-cholesterol and liver collagen content. EVOOs and HFD-L groups had comparable liver steatosis. The profibrotic effects were substantiated by an up-regulation of gene transcripts related to glutathione metabolism, chemokine signaling and NF-kappa-B activation and down-regulation of genes relevant for fatty acid metabolism. Collectivelly, EVOO intake improved weight gain and insulin sensitivity but not liver inflammation and fibrosis, which was supported by changes in hepatic genes expression., This work was supported by the grants AGL2014-54585-R, AGL-2017-86927-R, CP14/ 00105, PI18/01590 (Ministerio de Economía y Competitividad), PAI-BIO311 (Junta de Andalucía), CB07/08/0006 (Instituto de Salud Carlos III) and by the TNO research programs “Body Brain Interactions ERP 020” and “Functional Biomarkers PMC13”.

Published
2021

10. The integrated genomic surveillance system of Andalusia (SIEGA) provides a One Health regional resource connected with the clinic.

Author

Casimiro-Soriguer CS, Pérez-Florido J, Robles EA, Lara M, Aguado A, Rodríguez Iglesias MA, Lepe JA, García F, Pérez-Alegre M, Andújar E, Jiménez VE, Camino LP, Loruso N, Ameyugo U, Vazquez IM, Lozano CM, Chaves JA, and Dopazo J

Subjects
Humans, Animals, Genome, Bacterial, Whole Genome Sequencing methods, Virulence Factors genetics, Drug Resistance, Bacterial genetics, One Health, Genomics methods
Abstract

The One Health approach, recognizing the interconnectedness of human, animal, and environmental health, has gained significance amid emerging zoonotic diseases and antibiotic resistance concerns. This paper aims to demonstrate the utility of a collaborative tool, the SIEGA, for monitoring infectious diseases across domains, fostering a comprehensive understanding of disease dynamics and risk factors, highlighting the pivotal role of One Health surveillance systems. Raw whole-genome sequencing is processed through different species-specific open software that additionally reports the presence of genes associated to anti-microbial resistances and virulence. The SIEGA application is a Laboratory Information Management System, that allows customizing reports, detect transmission chains, and promptly alert on alarming genetic similarities. The SIEGA initiative has successfully accumulated a comprehensive collection of more than 1900 bacterial genomes, including Salmonella enterica, Listeria monocytogenes, Campylobacter jejuni, Escherichia coli, Yersinia enterocolitica and Legionella pneumophila, showcasing its potential in monitoring pathogen transmission, resistance patterns, and virulence factors. SIEGA enables customizable reports and prompt detection of transmission chains, highlighting its contribution to enhancing vigilance and response capabilities. Here we show the potential of genomics in One Health surveillance when supported by an appropriate bioinformatic tool. By facilitating precise disease control strategies and antimicrobial resistance management, SIEGA enhances global health security and reduces the burden of infectious diseases. The integration of health data from humans, animals, and the environment, coupled with advanced genomics, underscores the importance of a holistic One Health approach in mitigating health threats., (© 2024. The Author(s).)

Published
2024
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11. Extra virgin olive oil improved body weight and insulin sensitivity in high fat diet-induced obese LDLr-/-.Leiden mice without attenuation of steatohepatitis.

Author

Álvarez-Amor L, Sierra AL, Cárdenas A, López-Bermudo L, López-Beas J, Andújar E, Pérez-Alegre M, Gallego-Durán R, Varela LM, Martin-Montalvo A, Berná G, Rojas A, Robles-Frías MJ, Hmadcha A, Romero-Gómez M, Kleemann R, and Martín F

Subjects
Animals, Diet, High-Fat, Diet, Mediterranean, Female, Lipid Metabolism drug effects, Liver drug effects, Liver metabolism, Mice, Mice, Knockout, Mice, Obese, Non-alcoholic Fatty Liver Disease complications, Non-alcoholic Fatty Liver Disease genetics, Obesity complications, Obesity genetics, Obesity metabolism, Body Weight drug effects, Insulin Resistance physiology, Obesity diet therapy, Olive Oil pharmacology, Receptors, LDL genetics
Abstract

Dietary fatty acids play a role in the pathogenesis of obesity-associated non-alcoholic fatty liver disease (NAFLD), which is associated with insulin resistance (IR). Fatty acid composition is critical for IR and subsequent NAFLD development. Extra-virgin olive oil (EVOO) is the main source of monounsaturated fatty acids (MUFA) in Mediterranean diets. This study examined whether EVOO-containing high fat diets may prevent diet-induced NAFLD using Ldlr-/-. Leiden mice. In female Ldlr-/-.Leiden mice, the effects of the following high fat diets (HFDs) were examined: a lard-based HFD (HFD-L); an EVOO-based HFD (HFD-EVOO); a phenolic compounds-rich EVOO HFD (HFD-OL). We studied changes in body weight (BW), lipid profile, transaminases, glucose homeostasis, liver pathology and transcriptome. Both EVOO diets reduced body weight (BW) and improved insulin sensitivity. The EVOOs did not improve transaminase values and increased LDL-cholesterol and liver collagen content. EVOOs and HFD-L groups had comparable liver steatosis. The profibrotic effects were substantiated by an up-regulation of gene transcripts related to glutathione metabolism, chemokine signaling and NF-kappa-B activation and down-regulation of genes relevant for fatty acid metabolism. Collectivelly, EVOO intake improved weight gain and insulin sensitivity but not liver inflammation and fibrosis, which was supported by changes in hepatic genes expression.

Published
2021
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12. Depletion of the MFAP1/SPP381 Splicing Factor Causes R-Loop-Independent Genome Instability.

Author

Salas-Armenteros I, Barroso SI, Rondón AG, Pérez M, Andújar E, Luna R, and Aguilera A

Subjects
Alternative Splicing, Cell Cycle, Cell Proliferation, DNA-Binding Proteins metabolism, Gene Expression Regulation, Genome, Human, HEK293 Cells, HeLa Cells, Humans, RNA Processing, Post-Transcriptional, RNA-Binding Proteins metabolism, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins metabolism, Spliceosomes metabolism, Contractile Proteins metabolism, Extracellular Matrix Proteins metabolism, Genomic Instability, R-Loop Structures, RNA Splicing Factors metabolism
Abstract

THO/TREX is a conserved complex with a role in messenger ribonucleoprotein biogenesis that links gene expression and genome instability. Here, we show that human THO interacts with MFAP1 (microfibrillar-associated protein 1), a spliceosome-associated factor. Interestingly, MFAP1 depletion impairs cell proliferation and genome integrity, increasing γH2AX foci and DNA breaks. This phenotype is not dependent on either transcription or RNA-DNA hybrids. Mutations in the yeast orthologous gene SPP381 cause similar transcription-independent genome instability, supporting a conserved role. MFAP1 depletion has a wide effect on splicing and gene expression in human cells, determined by transcriptome analyses. MFAP1 depletion affects a number of DNA damage response (DDR) genes, which supports an indirect role of MFAP1 on genome integrity. Our work defines a functional interaction between THO and RNA processing and argues that splicing factors may contribute to genome integrity indirectly by regulating the expression of DDR genes rather than by a direct role., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2019
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13. Crosstalk between chromatin structure, cohesin activity and transcription.

Author

Maya-Miles D, Andújar E, Pérez-Alegre M, Murillo-Pineda M, Barrientos-Moreno M, Cabello-Lobato MJ, Gómez-Marín E, Morillo-Huesca M, and Prado F

Subjects
Chromatin chemistry, Chromatin Assembly and Disassembly, DNA Replication, Down-Regulation, Genome-Wide Association Study, Histones metabolism, Nucleosomes metabolism, Promoter Regions, Genetic, Protein Binding, Saccharomyces cerevisiae metabolism, Transcription, Genetic, Transcriptional Activation, Up-Regulation, Cohesins, Cell Cycle Proteins metabolism, Chromatin metabolism, Chromosomal Proteins, Non-Histone metabolism, Saccharomyces cerevisiae Proteins metabolism
Abstract

Background: A complex interplay between chromatin and topological machineries is critical for genome architecture and function. However, little is known about these reciprocal interactions, even for cohesin, despite its multiple roles in DNA metabolism., Results: We have used genome-wide analyses to address how cohesins and chromatin structure impact each other in yeast. Cohesin inactivation in scc1-73 mutants during the S and G2 phases causes specific changes in chromatin structure that preferentially take place at promoters; these changes include a significant increase in the occupancy of the - 1 and + 1 nucleosomes. In addition, cohesins play a major role in transcription regulation that is associated with specific promoter chromatin architecture. In scc1-73 cells, downregulated genes are enriched in promoters with short or no nucleosome-free region (NFR) and a fragile "nucleosome - 1/RSC complex" particle. These results, together with a preferential increase in the occupancy of nucleosome - 1 of these genes, suggest that cohesins promote transcription activation by helping RSC to form the NFR. In sharp contrast, the scc1-73 upregulated genes are enriched in promoters with an "open" chromatin structure and are mostly at cohesin-enriched regions, suggesting that a local accumulation of cohesins might help to inhibit transcription. On the other hand, a dramatic loss of chromatin integrity by histone depletion during DNA replication has a moderate effect on the accumulation and distribution of cohesin peaks along the genome., Conclusions: Our analyses of the interplay between chromatin integrity and cohesin activity suggest that cohesins play a major role in transcription regulation, which is associated with specific chromatin architecture and cohesin-mediated nucleosome alterations of the regulated promoters. In contrast, chromatin integrity plays only a minor role in the binding and distribution of cohesins.

Published
2019
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14. The CbrB Regulon: Promoter dissection reveals novel insights into the CbrAB expression network in Pseudomonas putida.

Author

Barroso R, García-Mauriño SM, Tomás-Gallardo L, Andújar E, Pérez-Alegre M, Santero E, and Canosa I

Subjects
Bacterial Proteins genetics, Base Sequence, Binding Sites, Chromatin Immunoprecipitation, Data Mining, Gene Expression Regulation, Bacterial, Models, Biological, Mutagenesis, Site-Directed, Protein Binding, RNA, Bacterial metabolism, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Transcription Factors genetics, Transcriptional Activation physiology, Bacterial Proteins metabolism, Promoter Regions, Genetic, Pseudomonas putida genetics, Pseudomonas putida metabolism, Transcription Factors metabolism
Abstract

CbrAB is a high ranked global regulatory system exclusive of the Pseudomonads that responds to carbon limiting conditions. It has become necessary to define the particular regulon of CbrB and discriminate it from the downstream cascades through other regulatory components. We have performed in vivo binding analysis of CbrB in P. putida and determined that it directly controls the expression of at least 61 genes; 20% involved in regulatory functions, including the previously identified CrcZ and CrcY small regulatory RNAs. The remaining are porines or transporters (20%), metabolic enzymes (16%), activities related to protein translation (5%) and orfs of uncharacterised function (38%). Amongst the later, we have selected the operon PP2810-13 to make an exhaustive analysis of the CbrB binding sequences, together with those of crcZ and crcY. We describe the implication of three independent non-palindromic subsites with a variable spacing in three different targets; CrcZ, CrcY and operon PP2810-13 in the CbrAB activation. CbrB is a quite peculiar σN-dependent activator since it is barely dependent on phosphorylation for transcriptional activation. With the depiction of the precise contacts of CbrB with the DNA, the analysis of the multimerisation status and its dependence on other factors such as RpoN o IHF, we propose a model of transcriptional activation., Competing Interests: The authors have declared that no competing interests exist.

Published
2018
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15. Functional Impact of the H2A.Z Histone Variant During Meiosis in Saccharomyces cerevisiae .

Author

González-Arranz S, Cavero S, Morillo-Huesca M, Andújar E, Pérez-Alegre M, Prado F, and San-Segundo P

Subjects
Adenosine Triphosphatases metabolism, DNA-Binding Proteins metabolism, Gene Expression Regulation, Fungal, Intracellular Signaling Peptides and Proteins metabolism, Nuclear Proteins metabolism, Phosphorylation, Protein Serine-Threonine Kinases metabolism, Saccharomyces cerevisiae genetics, Chromosomes, Fungal metabolism, Histones metabolism, Meiosis, Saccharomyces cerevisiae physiology, Saccharomyces cerevisiae Proteins metabolism
Abstract

Among the collection of chromatin modifications that influence its function and structure, the substitution of canonical histones by the so-called histone variants is one of the most prominent actions. Since crucial meiotic transactions are modulated by chromatin, here we investigate the functional contribution of the H2A.Z histone variant during both unperturbed meiosis and upon challenging conditions where the meiotic recombination checkpoint is triggered in budding yeast by the absence of the synaptonemal complex component Zip1 We have found that H2A.Z localizes to meiotic chromosomes in an SWR1-dependent manner. Although meiotic recombination is not substantially altered, the htz1 mutant (lacking H2A.Z) shows inefficient meiotic progression, impaired sporulation, and reduced spore viability. These phenotypes are likely accounted for by the misregulation of meiotic gene expression landscape observed in htz1 In the zip1 mutant, the absence of H2A.Z results in a tighter meiotic arrest imposed by the meiotic recombination checkpoint. We have found that Mec1-dependent Hop1-T318 phosphorylation and the ensuing Mek1 activation are not significantly altered in zip1 htz1 ; however, downstream checkpoint targets, such as the meiosis I-promoting factors Ndt80, Cdc5, and Clb1, are drastically downregulated. The study of the checkpoint response in zip1 htz1 has also allowed us to reveal the existence of an additional function of the Swe1 kinase, independent of CDK inhibitory phosphorylation, which is relevant to restrain meiotic cell cycle progression. In summary, our study shows that the H2A.Z histone variant impacts various aspects of meiotic development adding further insight into the relevance of chromatin dynamics for accurate gametogenesis., (Copyright © 2018 by the Genetics Society of America.)

Published
2018
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16. Survival of human circulating antigen-induced plasma cells is supported by plasma cell-niche cytokines and T follicular helper lymphocytes.

Author

Ramos-Amaya A, Rodríguez-Bayona B, López-Blanco R, Andújar E, Pérez-Alegre M, Campos-Caro A, and Brieva JA

Subjects
Antigens immunology, Cell Survival drug effects, Cells, Cultured, Cluster Analysis, Cytokines pharmacology, Gene Expression Profiling, Humans, Immunophenotyping, Lymphocyte Activation, Palatine Tonsil immunology, Palatine Tonsil metabolism, Phenotype, Plasma Cells drug effects, Cell Communication, Cellular Microenvironment, Cytokines metabolism, Plasma Cells immunology, Plasma Cells metabolism, T-Lymphocytes, Helper-Inducer immunology, T-Lymphocytes, Helper-Inducer metabolism
Abstract

Human circulating Ag-induced plasma cells (PCs) contain a high proportion of cycling cells. This study reveals that these PCs spontaneously proliferate in culture during 72 h, as determined by BrdU-uptake detection. Transcriptome analysis indicates that, in comparison with tonsil and bone marrow (BM) PCs, these PCs distinctively upregulate genes involved in cell division. Blood PC proliferation occurs simultaneously with increasing apoptosis rates, and is associated with PC survival. In addition, the proliferating activity of these PCs is enhanced by the addition of cytokines present in PC survival niches. Moreover, blood Ag-induced, but not BM, PCs exhibit the expression of molecules involved in the interaction between memory B cells and T follicular helper (Tfh) cells. In fact, purified circulating and tonsil Tfh cells increased IgG secretion by blood Ag-induced, but not by BM, PCs. This effect is exerted by augmenting blood PC survival through a mechanism partly dependent on cell contact. These results strongly suggest that the proliferating capacity of circulating Ag-induced PCs contributes to their competitive migration to survival niches, either to long-living PC niches or to temporal niches present in reactive lymphoid organs and inflamed tissues, structures where Tfh cells appear to participate., (Copyright © 2015 by The American Association of Immunologists, Inc.)

Published
2015
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17. R loops are linked to histone H3 S10 phosphorylation and chromatin condensation.

Author

Castellano-Pozo M, Santos-Pereira JM, Rondón AG, Barroso S, Andújar E, Pérez-Alegre M, García-Muse T, and Aguilera A

Subjects
Animals, Caenorhabditis elegans genetics, Chromatin Assembly and Disassembly, Chromatin Immunoprecipitation, Genomic Instability, HeLa Cells, Humans, Meiosis, Mitosis, Open Reading Frames, Phosphorylation, RNA Polymerase II metabolism, Saccharomyces cerevisiae genetics, Transcription, Genetic, Caenorhabditis elegans Proteins metabolism, DNA, Single-Stranded genetics, Histones metabolism, Protein Processing, Post-Translational, Saccharomyces cerevisiae Proteins metabolism
Abstract

R loops are transcription byproducts that constitute a threat to genome integrity. Here we show that R loops are tightly linked to histone H3 S10 phosphorylation (H3S10P), a mark of chromatin condensation. Chromatin immunoprecipitation (ChIP)-on-chip (ChIP-chip) analyses reveal H3S10P accumulation at centromeres, pericentromeric chromatin, and a large number of active open reading frames (ORFs) in R-loop-accumulating yeast cells, better observed in G1. Histone H3S10 plays a key role in maintaining genome stability, as scored by ectopic recombination and plasmid loss, Rad52 foci, and Rad53 checkpoint activation. H3S10P coincides with the presence of DNA-RNA hybrids, is suppressed by ribonuclease H overexpression, and causes reduced accessibility of restriction endonucleases, implying a tight connection between R loops, H3S10P, and chromatin compaction. Such histone modifications were also observed in R-loop-accumulating Caenorhabditis elegans and HeLa cells. We therefore provide a role of RNA in chromatin structure essential to understand how R loops modulate genome dynamics., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
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18. The SWR1 histone replacement complex causes genetic instability and genome-wide transcription misregulation in the absence of H2A.Z.

Author

Morillo-Huesca M, Clemente-Ruiz M, Andújar E, and Prado F

Subjects
Chromatin metabolism, DNA Breaks, Double-Stranded, Histones metabolism, Saccharomyces cerevisiae cytology, Saccharomyces cerevisiae enzymology, Stress, Physiological genetics, Adenosine Triphosphatases metabolism, Genome, Fungal genetics, Genomic Instability, Histones deficiency, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins metabolism, Transcription, Genetic
Abstract

The SWR1 complex replaces the canonical histone H2A with the variant H2A.Z (Htz1 in yeast) at specific chromatin regions. This dynamic alteration in nucleosome structure provides a molecular mechanism to regulate transcription, gene silencing, chromosome segregation and DNA repair. Here we show that genetic instability, sensitivity to drugs impairing different cellular processes and genome-wide transcriptional misregulation in htz1Delta can be partially or totally suppressed if SWR1 is not formed (swr1Delta), if it forms but cannot bind to chromatin (swc2Delta) or if it binds to chromatin but lacks histone replacement activity (swc5Delta and the ATPase-dead swr1-K727G). These results suggest that in htz1Delta the nucleosome remodelling activity of SWR1 affects chromatin integrity because of an attempt to replace H2A with Htz1 in the absence of the latter. This would impair transcription and, either directly or indirectly, other cellular processes. Specifically, we show that in htz1Delta, the SWR1 complex causes an accumulation of recombinogenic DNA damage by a mechanism dependent on phosphorylation of H2A at Ser129, a modification that occurs in response to DNA damage, suggesting that the SWR1 complex impairs the repair of spontaneous DNA damage in htz1Delta. In addition, SWR1 causes DSBs sensitivity in htz1Delta; consistently, in the absence of Htz1 the SWR1 complex bound near an endonuclease HO-induced DSB at the mating-type (MAT) locus impairs DSB-induced checkpoint activation. Our results support a stepwise mechanism for the replacement of H2A with Htz1 and demonstrate that a tight control of this mechanism is essential to regulate chromatin dynamics but also to prevent the deleterious consequences of an incomplete nucleosome remodelling.

Published
2010
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19. Tetralin-induced and ThnR-regulated aldehyde dehydrogenase and beta-oxidation genes in Sphingomonas macrogolitabida strain TFA.

Author

López-Sánchez A, Floriano B, Andújar E, Hernáez MJ, and Santero E

Subjects
Base Sequence, DNA, Bacterial chemistry, DNA, Bacterial genetics, Electrophoretic Mobility Shift Assay, Gene Deletion, Gene Order, Genes, Bacterial, Metabolic Networks and Pathways genetics, Molecular Sequence Data, Multigene Family, Oxidation-Reduction, Pimelic Acids metabolism, Promoter Regions, Genetic, Protein Binding, Sequence Alignment, Sequence Analysis, DNA, Transcription Factors metabolism, Transcription Initiation Site, Aldehyde Dehydrogenase metabolism, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial, Sphingomonas enzymology, Sphingomonas metabolism, Tetrahydronaphthalenes metabolism
Abstract

A new cluster of genes has been found downstream of the previously identified thnA2 gene. The gene products are similar to nonacylating aldehyde dehydrogenases (ThnG) and to proteins representing a complete beta-oxidation pathway (ThnH to ThnP). ThnG has a nonacylating NAD-dependent pimelic semialdehyde dehydrogenase activity that renders pimelic acid a seven-carbon dicarboxylic acid. For further metabolism via beta-oxidation, pimelic acid could be acylated by a constitutive acyl coenzyme A (acyl-CoA) ligase found in Sphingomonas macrogolitabida strain TFA or by ThnH, which would transfer CoA from a previously acylated molecule. The first round of beta-oxidation is expected to render glutaryl-CoA and acetyl-CoA. Glutaryl-CoA dehydrogenase (ThnN) would catalyze the oxidation and decarboxylation of glutaryl-CoA and yield crotonyl-CoA, which enters the central metabolism via acetyl-CoA. Mutagenesis studies have shown that these genes are not essential for growth on tetralin or fatty acids, although a thnG disruption mutant showed threefold less pimelic semialdehyde dehydrogenase activity. Transcriptional analysis indicated that these genes are induced by tetralin, subjected to catabolite repression, and regulated by the same regulatory factors previously identified to regulate other thn structural genes. In the present study, transcription initiation upstream of thnH and thnM has been detected by primer extension analysis, and putative promoters were identified by sequence analysis. In addition, binding of the activator ThnR to its putative binding sites at the PH and PM promoter regions has been characterized. These results provide a complete characterization of the biodegradation pathway of tetralin to central metabolites and describe the transcriptional organization of the thn operons in S. macrogolitabida strain TFA.

Published
2010
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20. Site-directed mutagenesis of an extradiol dioxygenase involved in tetralin biodegradation identifies residues important for activity or substrate specificity.

Author

Andújar E and Santero E

Subjects
Amino Acid Sequence, Base Sequence, Biodegradation, Environmental, Catalytic Domain genetics, DNA, Bacterial genetics, Escherichia coli genetics, Kinetics, Models, Molecular, Molecular Sequence Data, Mutagenesis, Site-Directed, Oxygenases chemistry, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Homology, Amino Acid, Sphingomonas enzymology, Sphingomonas genetics, Substrate Specificity, Oxygenases genetics, Oxygenases metabolism, Tetrahydronaphthalenes metabolism
Abstract

The sequence of the extradiol dioxygenase ThnC, involved in tetralin biodegradation, was aligned with other extradiol dioxygenases involved in biodegradation of polycyclic compounds, and a three-dimensional model of ThnC, based on the structure of the previously crystallized 2,3-dihydroxybiphenyl dioxygenase from Burkholderia fungorum LB400, was built. In order to assess the functional importance of some non-active-site residues whose relevance could not be established by structural information, a number of positions surrounding the substrate-binding site were mutated in ThnC. Ten mutant proteins were purified and their activity towards 1,2-dihydroxytetralin, 1,2-dihydroxynaphthalene and 2,3-dihydroxybiphenyl was characterized. N213H, Q198H, G206M, A282R and A282G mutants increased k(cat)/K(m) at least twofold using 1,2-dihydroxytetralin as the substrate, thus showing that activity of ThnC is not maximized for this substrate. N213H and Q198H mutants increased k(cat)/K(m) using any of the substrates tested, thus showing the relevance for activity of these two histidines, which are highly conserved in dihydroxybiphenyl dioxygenases, but not present in dihydroxynaphthalene dioxygenases. Different substitutions in position 282 had different effects on general activity or substrate specificity, thus showing the functional importance of the most C-terminal beta-sheet of the protein. A251M and G206M mutants showed increased activity specifically for a particular substrate. N213H, G206M, A282R, A282G and Y177I substitutions resulted in enzymes more tolerant to acidic pH, the most striking effect being observed in mutant Y177I, which showed maximal activity at pH 5.5. In addition, Q198D and V175D mutants, which had altered K(m), also showed altered sensitivity to substrate inhibition, thus indicating that inhibition is exerted through the same binding site. This mutational analysis, therefore, identified conserved residues important for activity or substrate specificity, and also shed some light on the mechanism of substrate inhibition exhibited by extradiol dioxygenases.

Published
2003
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21. The distal convoluted tubule of rabbit kidney does not express a functional sodium channel.

Author

Velázquez H, Silva T, Andújar E, Desir GV, Ellison DH, and Greger R

Subjects
Animals, Blotting, Northern, Calcium-Binding Proteins genetics, Cloning, Molecular, Endosomal Sorting Complexes Required for Transport, Epithelial Sodium Channels, In Vitro Techniques, Kidney metabolism, Ligases genetics, Molecular Sequence Data, Nedd4 Ubiquitin Protein Ligases, Nephrons, Perfusion, RNA, Messenger metabolism, Rabbits, Reverse Transcriptase Polymerase Chain Reaction, Sodium Channels genetics, Tissue Distribution, Kidney Tubules, Distal metabolism, Sodium Channels metabolism, Ubiquitin-Protein Ligases
Abstract

We sought to assess whether the distal convoluted tubule (DCT) segment of the rabbit nephron expresses a functional epithelial sodium channel. First, the transepithelial voltage (V(te), lumen vs. bath) was measured in isolated perfused DCT segments (assessed separately in the upstream half and the downstream half of the DCT). V(te) was zero and not affected by amiloride or barium in the upstream DCT. V(te) was sometimes negative in the downstream DCT and depolarized by amiloride and hyperpolarized by barium, suggesting inclusion of connecting tubule (CNT) cells. To determine expression of epithelial sodium channel (ENaC) mRNA subunits by the upstream DCT, rabbit alpha-, beta-, and gamma-ENaC cDNA fragments were cloned and primers were selected for single-nephron RT-PCR analysis. Although alpha-ENaC was expressed by the DCT, beta- and gamma-ENaC were not detected in the DCT. In contrast, the CNT, CCD, and outer medullary collecting duct (OMCD) expressed all three subunits. Nedd4 was also not detected in the DCT but was expressed by the CNT, CCD, and OMCD. When upstream DCT fragments were grown to confluent monolayers in primary culture, the epithelia exhibited negative voltages and high transepithelial resistances and expressed mRNA for all three ENaC subunits as well as for Nedd4. The absence of a negative voltage and failure to detect transcript for beta- and gamma-ENaC and Nedd4 in the native rabbit DCT suggest that the sodium channel is not a significant pathway for sodium absorption by this segment. The phenotype conversion observed when DCT cells are grown in culture does not rule out the possibility that there may be conditions in which the DCT in the intact kidney expresses sodium channel activity. The results are consistent with the notion that DCT sodium transport is predominantly, if not exclusively, electroneutral.

Published
2001
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22. Identification of an extradiol dioxygenase involved in tetralin biodegradation: gene sequence analysis and purification and characterization of the gene product.

Author

Andújar E, Hernáez MJ, Kaschabek SR, Reineke W, and Santero E

Subjects
Hydrogen-Ion Concentration, Kinetics, Molecular Sequence Data, Mutagenesis, Insertional, Naphthols metabolism, Protein Conformation, Sequence Analysis, Substrate Specificity, Temperature, Dioxygenases, Oxygenases metabolism, Tetrahydronaphthalenes metabolism
Abstract

A genomic region involved in tetralin biodegradation was recently identified in Sphingomonas strain TFA. We have cloned and sequenced from this region a gene designated thnC, which codes for an extradiol dioxygenase required for tetralin utilization. Comparison to similar sequences allowed us to define a subfamily of 1, 2-dihydroxynaphthalene extradiol dioxygenases, which comprises two clearly different groups, and to show that ThnC clusters within group 2 of this subfamily. 1,2-Dihydroxy-5,6,7, 8-tetrahydronaphthalene was found to be the metabolite accumulated by a thnC insertion mutant. The ring cleavage product of this metabolite exhibited behavior typical of a hydroxymuconic semialdehyde toward pH-dependent changes and derivatization with ammonium to give a quinoline derivative. The gene product has been purified, and its biochemical properties have been studied. The enzyme is a decamer which requires Fe(II) for activity and shows high activity toward its substrate (V(max), 40.5 U mg(-1); K(m), 18. 6 microM). The enzyme shows even higher activity with 1, 2-dihydroxynaphthalene and also significant activity toward 1, 2-dihydroxybiphenyl or methylated catechols. The broad substrate specificity of ThnC is consistent with that exhibited by other extradiol dioxygenases of the same group within the subfamily of 1, 2-dihydroxynaphthalene dioxygenases.

Published
2000
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24. Rabbit distal convoluted tubule coexpresses NaCl cotransporter and 11 beta-hydroxysteroid dehydrogenase II mRNA.

Author

Velázquez H, Náray-Fejes-Tóth A, Silva T, Andújar E, Reilly RF, Desir GV, and Ellison DH

Subjects
11-beta-Hydroxysteroid Dehydrogenases, Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, Molecular Sequence Data, Polymerase Chain Reaction, Rabbits, Sodium Chloride Symporters, Carrier Proteins genetics, Hydroxysteroid Dehydrogenases genetics, Kidney Tubules, Distal metabolism, RNA, Messenger analysis, Symporters
Abstract

Background: Although the renal cortical collecting duct (CCD) is a principal target for aldosterone, recent evidence suggests that salt transport by other nephron segments may also be regulated by aldosterone. Electroneutral and thiazide-sensitive NaCl cotransport by the distal convoluted tubule (DCT) of the rat is increased in animals deprived of dietary NaCl. We tested the hypothesis that the DCT of the rabbit is an aldosterone target tissue., Methods: The single-nephron reverse-transcriptase/polymerase chain reaction (RT-PCR) technique was used to determine mRNA expression of NaCl cotransporter and 11 beta-HSD 2 in dissected nephron segments. The rabbit NaCl cotransporter was first cloned and rabbit-specific primers selected. A micro-assay was developed to assess 11 beta-HSD 2 enzyme activity in 0.5 mm samples of the same nephron segments., Results: NaCl cotransporter was expressed in 0 of 6 proximal tubule (PT), 6 of 6 DCT and 3 of 6 CCD samples, while 11 beta-HSD was found in 0 of 7 PT, 7 of 7 DCT and 9 of 9 CCD samples. Corticosterone was converted to 11-dehydrocorticosterone at a high rate and to a similar extent by both the DCT and CCD, but not the PT., Conclusions: We conclude that the DCT is a target tissue for the action of aldosterone. Axial heterogeneity of electroneutral (in DCT) and electrogenic (in CCD) Na transporters along the distal nephron may improve sodium recovery in low salt and volume states.

Published
1998
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25. [Petit mal in children].

Author

Mendoza HR and Andújar E

Subjects
Adolescent, Age Factors, Anticonvulsants therapeutic use, Child, Child, Preschool, Drug Evaluation, Electroencephalography, Epilepsy, Absence drug therapy, Ethosuximide therapeutic use, Female, Humans, Infant, Male, Puberty, Sex Factors, Epilepsy, Absence diagnosis
Abstract

Thirty-two cases of children with petit mal were reviewed, finding that it is an entity of low frequency among the group of epileptic disorders; also there is no differences between sexes. The prognosis has become worsening by the presence of other types of crises, abnormal neurological examination, subnormal intelligence, behavior disorders and an "atypica", EEG. It is also influenced by the beginning of therapy at the pubertal development time. Ethosuximide seems to be the drug of choice in the "uncomplicated" cases.

Published
1975

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